MODULE inifis_mod IMPLICIT NONE CONTAINS SUBROUTINE inifis(ngrid,nlayer,nq, & day_ini,pdaysec,nday,ptimestep, & plat,plon,parea, & prad,pg,pr,pcpp) use init_print_control_mod, only: init_print_control use radinc_h, only: ini_radinc_h, naerkind use datafile_mod, only: datadir use comdiurn_h, only: sinlat, coslat, sinlon, coslon use comgeomfi_h, only: totarea, totarea_planet use comsoil_h, only: ini_comsoil_h, nsoilmx, lay1_soil, alpha_soil use time_phylmdz_mod, only: ecritphy,day_step,iphysiq, & init_time, daysec, dtphys use comcstfi_mod, only: rad, cpp, g, r, rcp, & mugaz, pi, avocado use planete_mod, only: nres use planetwide_mod, only: planetwide_sumval use callkeys_mod use mod_phys_lmdz_para, only : is_parallel !======================================================================= ! ! purpose: ! ------- ! ! Initialisation for the physical parametrisations of the LMD ! Generic Model. ! ! author: Frederic Hourdin 15 / 10 /93 ! ------- ! modified: Sebastien Lebonnois 11/06/2003 (new callphys.def) ! Ehouarn Millour (oct. 2008) tracers are now identified ! by their names and may not be contiguously ! stored in the q(:,:,:,:) array ! E.M. (june 2009) use getin routine to load parameters ! ! ! arguments: ! ---------- ! ! input: ! ------ ! ! ngrid Size of the horizontal grid. ! All internal loops are performed on that grid. ! nlayer Number of vertical layers. ! pdayref Day of reference for the simulation ! pday Number of days counted from the North. Spring ! equinoxe. ! !======================================================================= ! !----------------------------------------------------------------------- ! declarations: ! ------------- use datafile_mod, only: datadir use ioipsl_getin_p_mod, only: getin_p IMPLICIT NONE REAL,INTENT(IN) :: prad,pg,pr,pcpp,pdaysec,ptimestep INTEGER,INTENT(IN) :: nday INTEGER,INTENT(IN) :: ngrid,nlayer,nq REAL,INTENT(IN) :: plat(ngrid),plon(ngrid),parea(ngrid) integer,intent(in) :: day_ini INTEGER ig,ierr EXTERNAL iniorbit,orbite EXTERNAL SSUM REAL SSUM ! Initialize flags lunout, prt_level, debug (in print_control_mod) CALL init_print_control ! initialize constants in comcstfi_mod rad=prad cpp=pcpp g=pg r=pr rcp=r/cpp mugaz=8.314*1000./pr ! dummy init pi=2.*asin(1.) avocado = 6.02214179e23 ! added by RW ! Initialize some "temporal and calendar" related variables #ifndef MESOSCALE CALL init_time(day_ini,pdaysec,nday,ptimestep) #endif ! read in some parameters from "run.def" for physics, ! or shared between dynamics and physics. call getin_p("ecritphy",ecritphy) ! frequency of outputs in physics, ! in dynamical steps call getin_p("day_step",day_step) ! number of dynamical steps per day call getin_p("iphysiq",iphysiq) ! call physics every iphysiq dyn step ! do we read a startphy.nc file? (default: .true.) call getin_p("startphy_file",startphy_file) ! -------------------------------------------------------------- ! Reading the "callphys.def" file controlling some key options ! -------------------------------------------------------------- ! check that 'callphys.def' file is around OPEN(99,file='callphys.def',status='old',form='formatted',iostat=ierr) CLOSE(99) IF(ierr.EQ.0) iscallphys=.true. !iscallphys initialised as false in callkeys_mod module !!! IF(ierr.EQ.0) THEN IF(iscallphys) THEN PRINT* PRINT* PRINT*,'--------------------------------------------' PRINT*,' inifis: Parametres pour la physique (callphys.def)' PRINT*,'--------------------------------------------' write(*,*) "Directory where external input files are:" ! default 'datadir' is set in "datadir_mod" call getin_p("datadir",datadir) ! default path write(*,*) " datadir = ",trim(datadir) write(*,*) "Run with or without tracer transport ?" tracer=.false. ! default value call getin_p("tracer",tracer) write(*,*) " tracer = ",tracer write(*,*) "Run with or without atm mass update ", & " due to tracer evaporation/condensation?" mass_redistrib=.false. ! default value call getin_p("mass_redistrib",mass_redistrib) write(*,*) " mass_redistrib = ",mass_redistrib write(*,*) "Diurnal cycle ?" write(*,*) "(if diurnal=false, diurnal averaged solar heating)" diurnal=.true. ! default value call getin_p("diurnal",diurnal) write(*,*) " diurnal = ",diurnal write(*,*) "Seasonal cycle ?" write(*,*) "(if season=false, Ls stays constant, to value ", & "set in 'start'" season=.true. ! default value call getin_p("season",season) write(*,*) " season = ",season write(*,*) "Tidally resonant rotation ?" tlocked=.false. ! default value call getin_p("tlocked",tlocked) write(*,*) "tlocked = ",tlocked write(*,*) "Saturn ring shadowing ?" rings_shadow = .false. call getin_p("rings_shadow", rings_shadow) write(*,*) "rings_shadow = ", rings_shadow write(*,*) "Compute latitude-dependent gravity field?" oblate = .false. call getin_p("oblate", oblate) write(*,*) "oblate = ", oblate write(*,*) "Flattening of the planet (a-b)/a " flatten = 0.0 call getin_p("flatten", flatten) write(*,*) "flatten = ", flatten write(*,*) "Needed if oblate=.true.: J2" J2 = 0.0 call getin_p("J2", J2) write(*,*) "J2 = ", J2 write(*,*) "Needed if oblate=.true.: Planet mass (*1e24 kg)" MassPlanet = 0.0 call getin_p("MassPlanet", MassPlanet) write(*,*) "MassPlanet = ", MassPlanet write(*,*) "Needed if oblate=.true.: Planet mean radius (m)" Rmean = 0.0 call getin_p("Rmean", Rmean) write(*,*) "Rmean = ", Rmean ! Test of incompatibility: ! if tlocked, then diurnal should be false if (tlocked.and.diurnal) then print*,'If diurnal=true, we should turn off tlocked.' stop endif write(*,*) "Tidal resonance ratio ?" nres=0 ! default value call getin_p("nres",nres) write(*,*) "nres = ",nres write(*,*) "Write some extra output to the screen ?" lwrite=.false. ! default value call getin_p("lwrite",lwrite) write(*,*) " lwrite = ",lwrite write(*,*) "Save statistics in file stats.nc ?" callstats=.true. ! default value call getin_p("callstats",callstats) write(*,*) " callstats = ",callstats write(*,*) "Test energy conservation of model physics ?" enertest=.false. ! default value call getin_p("enertest",enertest) write(*,*) " enertest = ",enertest write(*,*) "Check to see if cpp values used match gases.def ?" check_cpp_match=.true. ! default value call getin_p("check_cpp_match",check_cpp_match) write(*,*) " check_cpp_match = ",check_cpp_match write(*,*) "call radiative transfer ?" callrad=.true. ! default value call getin_p("callrad",callrad) write(*,*) " callrad = ",callrad write(*,*) "call correlated-k radiative transfer ?" corrk=.true. ! default value call getin_p("corrk",corrk) write(*,*) " corrk = ",corrk write(*,*) "prohibit calculations outside corrk T grid?" strictboundcorrk=.true. ! default value call getin_p("strictboundcorrk",strictboundcorrk) write(*,*) "strictboundcorrk = ",strictboundcorrk write(*,*) "call gaseous absorption in the visible bands?", & "(matters only if callrad=T)" callgasvis=.false. ! default value call getin_p("callgasvis",callgasvis) write(*,*) " callgasvis = ",callgasvis write(*,*) "call continuum opacities in radiative transfer ?", & "(matters only if callrad=T)" continuum=.true. ! default value call getin_p("continuum",continuum) write(*,*) " continuum = ",continuum write(*,*) "use analytic function for H2O continuum ?" H2Ocont_simple=.false. ! default value call getin_p("H2Ocont_simple",H2Ocont_simple) write(*,*) " H2Ocont_simple = ",H2Ocont_simple write(*,*) "call turbulent vertical diffusion ?" calldifv=.true. ! default value call getin_p("calldifv",calldifv) write(*,*) " calldifv = ",calldifv write(*,*) "use turbdiff instead of vdifc ?" UseTurbDiff=.true. ! default value call getin_p("UseTurbDiff",UseTurbDiff) write(*,*) " UseTurbDiff = ",UseTurbDiff write(*,*) "call convective adjustment ?" calladj=.true. ! default value call getin_p("calladj",calladj) write(*,*) " calladj = ",calladj write(*,*) "call thermal plume model ?" calltherm=.false. ! default value call getin_p("calltherm",calltherm) write(*,*) " calltherm = ",calltherm write(*,*) "call CO2 condensation ?" co2cond=.false. ! default value call getin_p("co2cond",co2cond) write(*,*) " co2cond = ",co2cond ! Test of incompatibility if (co2cond.and.(.not.tracer)) then print*,'We need a CO2 ice tracer to condense CO2' call abort endif write(*,*) "CO2 supersaturation level ?" co2supsat=1.0 ! default value call getin_p("co2supsat",co2supsat) write(*,*) " co2supsat = ",co2supsat write(*,*) "Radiative timescale for Newtonian cooling ?" tau_relax=30. ! default value call getin_p("tau_relax",tau_relax) write(*,*) " tau_relax = ",tau_relax tau_relax=tau_relax*24*3600 ! convert Earth days --> seconds write(*,*)"call thermal conduction in the soil ?" callsoil=.true. ! default value call getin_p("callsoil",callsoil) write(*,*) " callsoil = ",callsoil write(*,*)"Rad transfer is computed every iradia", & " physical timestep" iradia=1 ! default value call getin_p("iradia",iradia) write(*,*)" iradia = ",iradia write(*,*)"Rayleigh scattering ?" rayleigh=.false. call getin_p("rayleigh",rayleigh) write(*,*)" rayleigh = ",rayleigh write(*,*) "Use blackbody for stellar spectrum ?" stelbbody=.false. ! default value call getin_p("stelbbody",stelbbody) write(*,*) " stelbbody = ",stelbbody write(*,*) "Stellar blackbody temperature ?" stelTbb=5800.0 ! default value call getin_p("stelTbb",stelTbb) write(*,*) " stelTbb = ",stelTbb write(*,*)"Output mean OLR in 1D?" meanOLR=.false. call getin_p("meanOLR",meanOLR) write(*,*)" meanOLR = ",meanOLR write(*,*)"Output spectral OLR in 3D?" specOLR=.false. call getin_p("specOLR",specOLR) write(*,*)" specOLR = ",specOLR write(*,*)"Output diagnostic optical thickness attenuation exp(-tau)?" diagdtau=.false. call getin_p("diagdtau",diagdtau) write(*,*)" diagdtau = ",diagdtau write(*,*)"Operate in kastprof mode?" kastprof=.false. call getin_p("kastprof",kastprof) write(*,*)" kastprof = ",kastprof write(*,*)"Uniform absorption in radiative transfer?" graybody=.false. call getin_p("graybody",graybody) write(*,*)" graybody = ",graybody ! Soil model write(*,*)"Number of sub-surface layers for soil scheme?" ! default value of nsoilmx set in comsoil_h call getin_p("nsoilmx",nsoilmx) write(*,*)" nsoilmx=",nsoilmx write(*,*)"Thickness of topmost soil layer (m)?" ! default value of lay1_soil set in comsoil_h call getin_p("lay1_soil",lay1_soil) write(*,*)" lay1_soil = ",lay1_soil write(*,*)"Coefficient for soil layer thickness distribution?" ! default value of alpha_soil set in comsoil_h call getin_p("alpha_soil",alpha_soil) write(*,*)" alpha_soil = ",alpha_soil ! Slab Ocean write(*,*) "Use slab-ocean ?" ok_slab_ocean=.false. ! default value call getin_p("ok_slab_ocean",ok_slab_ocean) write(*,*) "ok_slab_ocean = ",ok_slab_ocean ! Sanity check: for now slab oncean only works in serial mode if (ok_slab_ocean.and.is_parallel) then write(*,*) " Error: slab ocean should only be used in serial mode!" call abort endif write(*,*) "Use slab-sea-ice ?" ok_slab_sic=.true. ! default value call getin_p("ok_slab_sic",ok_slab_sic) write(*,*) "ok_slab_sic = ",ok_slab_sic write(*,*) "Use heat transport for the ocean ?" ok_slab_heat_transp=.true. ! default value call getin_p("ok_slab_heat_transp",ok_slab_heat_transp) write(*,*) "ok_slab_heat_transp = ",ok_slab_heat_transp ! Photochemistry and chemistry in the thermosphere write(*,*) "Use photochemistry ?" photochem=.false. ! default value call getin_p("photochem",photochem) write(*,*) "photochem = ",photochem write(*,*)"Production of haze ?" haze=.false. ! default value call getin_p("haze",haze) write(*,*)" haze = ",haze ! Test of incompatibility: ! if kastprof used, we must be in 1D if (kastprof.and.(ngrid.gt.1)) then print*,'kastprof can only be used in 1D!' call abort endif write(*,*)"Stratospheric temperature for kastprof mode?" Tstrat=167.0 call getin_p("Tstrat",Tstrat) write(*,*)" Tstrat = ",Tstrat write(*,*)"Remove lower boundary?" nosurf=.false. call getin_p("nosurf",nosurf) write(*,*)" nosurf = ",nosurf ! Tests of incompatibility: if (nosurf.and.callsoil) then print*,'nosurf not compatible with soil scheme!' print*,'... got to make a choice!' call abort endif write(*,*)"Add an internal heat flux?", & "... matters only if callsoil=F" intheat=0. call getin_p("intheat",intheat) write(*,*)" intheat = ",intheat write(*,*)"Use Newtonian cooling for radiative transfer?" newtonian=.false. call getin_p("newtonian",newtonian) write(*,*)" newtonian = ",newtonian ! Tests of incompatibility: if (newtonian.and.corrk) then print*,'newtonian not compatible with correlated-k!' call abort endif if (newtonian.and.calladj) then print*,'newtonian not compatible with adjustment!' call abort endif if (newtonian.and.calldifv) then print*,'newtonian not compatible with a boundary layer!' call abort endif write(*,*)"Test physics timescale in 1D?" testradtimes=.false. call getin_p("testradtimes",testradtimes) write(*,*)" testradtimes = ",testradtimes ! Test of incompatibility: ! if testradtimes used, we must be in 1D if (testradtimes.and.(ngrid.gt.1)) then print*,'testradtimes can only be used in 1D!' call abort endif write(*,*)"Default planetary temperature?" tplanet=215.0 call getin_p("tplanet",tplanet) write(*,*)" tplanet = ",tplanet write(*,*)"Which star?" startype=1 ! default value = Sol call getin_p("startype",startype) write(*,*)" startype = ",startype write(*,*)"Value of stellar flux at 1 AU?" Fat1AU=1356.0 ! default value = Sol today call getin_p("Fat1AU",Fat1AU) write(*,*)" Fat1AU = ",Fat1AU ! TRACERS: write(*,*)"Varying H2O cloud fraction?" CLFvarying=.false. ! default value call getin_p("CLFvarying",CLFvarying) write(*,*)" CLFvarying = ",CLFvarying write(*,*)"Value of fixed H2O cloud fraction?" CLFfixval=1.0 ! default value call getin_p("CLFfixval",CLFfixval) write(*,*)" CLFfixval = ",CLFfixval write(*,*)"fixed radii for Cloud particles?" radfixed=.false. ! default value call getin_p("radfixed",radfixed) write(*,*)" radfixed = ",radfixed if(kastprof)then radfixed=.true. endif write(*,*)"Number mixing ratio of CO2 ice particles:" Nmix_co2=1.e6 ! default value call getin_p("Nmix_co2",Nmix_co2) write(*,*)" Nmix_co2 = ",Nmix_co2 ! write(*,*)"Number of radiatively active aerosols:" ! naerkind=0. ! default value ! call getin_p("naerkind",naerkind) ! write(*,*)" naerkind = ",naerkind write(*,*)"Opacity of dust (if used):" dusttau=0. ! default value call getin_p("dusttau",dusttau) write(*,*)" dusttau = ",dusttau write(*,*)"Radiatively active CO2 aerosols?" aeroco2=.false. ! default value call getin_p("aeroco2",aeroco2) write(*,*)" aeroco2 = ",aeroco2 write(*,*)"Fixed CO2 aerosol distribution?" aerofixco2=.false. ! default value call getin_p("aerofixco2",aerofixco2) write(*,*)" aerofixco2 = ",aerofixco2 write(*,*)"Radiatively active water ice?" aeroh2o=.false. ! default value call getin_p("aeroh2o",aeroh2o) write(*,*)" aeroh2o = ",aeroh2o write(*,*)"Fixed H2O aerosol distribution?" aerofixh2o=.false. ! default value call getin_p("aerofixh2o",aerofixh2o) write(*,*)" aerofixh2o = ",aerofixh2o write(*,*)"Radiatively active sulfuric acid aerosols?" aeroh2so4=.false. ! default value call getin_p("aeroh2so4",aeroh2so4) write(*,*)" aeroh2so4 = ",aeroh2so4 !================================= write(*,*)"Radiatively active two-layer aerosols?" aeroback2lay=.false. ! default value call getin_p("aeroback2lay",aeroback2lay) write(*,*)" aeroback2lay = ",aeroback2lay write(*,*)"Radiatively active ammonia cloud?" aeronh3=.false. ! default value call getin_p("aeronh3",aeronh3) write(*,*)" aeronh3 = ",aeronh3 write(*,*)"Radiatively active auroral aerosols?" aeroaurora=.false. ! default value call getin_p("aeroaurora",aeroaurora) write(*,*)" aeroaurora = ",aeroaurora write(*,*)"TWOLAY AEROSOL: total optical depth ", & "in the tropospheric layer (visible)" obs_tau_col_tropo=8.D0 call getin_p("obs_tau_col_tropo",obs_tau_col_tropo) write(*,*)" obs_tau_col_tropo = ",obs_tau_col_tropo write(*,*)"TWOLAY AEROSOL: total optical depth ", & "in the stratospheric layer (visible)" obs_tau_col_strato=0.08D0 call getin_p("obs_tau_col_strato",obs_tau_col_strato) write(*,*)" obs_tau_col_strato = ",obs_tau_col_strato write(*,*)"TWOLAY AEROSOL: optprop_back2lay_vis?" optprop_back2lay_vis = 'optprop_saturn_vis_n20.dat' call getin_p("optprop_back2lay_vis",optprop_back2lay_vis) write(*,*)" optprop_back2lay_vis = ",optprop_back2lay_vis write(*,*)"TWOLAY AEROSOL: optprop_back2lay_ir?" optprop_back2lay_ir = 'optprop_saturn_ir_n20.dat' call getin_p("optprop_back2lay_ir",optprop_back2lay_ir) write(*,*)" optprop_back2lay_ir = ",optprop_back2lay_ir write(*,*)"TWOLAY AEROSOL: pres_bottom_tropo? in pa" pres_bottom_tropo=66000.0 call getin_p("pres_bottom_tropo",pres_bottom_tropo) write(*,*)" pres_bottom_tropo = ",pres_bottom_tropo write(*,*)"TWOLAY AEROSOL: pres_top_tropo? in pa" pres_top_tropo=18000.0 call getin_p("pres_top_tropo",pres_top_tropo) write(*,*)" pres_top_tropo = ",pres_top_tropo write(*,*)"TWOLAY AEROSOL: pres_bottom_strato? in pa" pres_bottom_strato=2000.0 call getin_p("pres_bottom_strato",pres_bottom_strato) write(*,*)" pres_bottom_strato = ",pres_bottom_strato write(*,*)"TWOLAY AEROSOL: pres_top_strato? in pa" pres_top_strato=100.0 call getin_p("pres_top_strato",pres_top_strato) write(*,*)" pres_top_strato = ",pres_top_strato write(*,*)"TWOLAY AEROSOL: particle size in the ", & "tropospheric layer, in meters" size_tropo=2.e-6 call getin_p("size_tropo",size_tropo) write(*,*)" size_tropo = ",size_tropo write(*,*)"TWOLAY AEROSOL: particle size in the ", & "stratospheric layer, in meters" size_strato=1.e-7 call getin_p("size_strato",size_strato) write(*,*)" size_strato = ",size_strato write(*,*)"NH3 (thin) cloud: total optical depth" tau_nh3_cloud=7.D0 call getin_p("tau_nh3_cloud",tau_nh3_cloud) write(*,*)" tau_nh3_cloud = ",tau_nh3_cloud write(*,*)"NH3 (thin) cloud pressure level" pres_nh3_cloud=7.D0 call getin_p("pres_nh3_cloud",pres_nh3_cloud) write(*,*)" pres_nh3_cloud = ",pres_nh3_cloud write(*,*)"NH3 (thin) cloud: particle sizes" size_nh3_cloud=3.e-6 call getin_p("size_nh3_cloud",size_nh3_cloud) write(*,*)" size_nh3_cloud = ",size_nh3_cloud !================================= write(*,*)"Cloud pressure level (with kastprof only):" cloudlvl=0. ! default value call getin_p("cloudlvl",cloudlvl) write(*,*)" cloudlvl = ",cloudlvl write(*,*)"Is the variable gas species radiatively active?" Tstrat=167.0 varactive=.false. call getin_p("varactive",varactive) write(*,*)" varactive = ",varactive write(*,*)"Is the variable gas species distribution set?" varfixed=.false. call getin_p("varfixed",varfixed) write(*,*)" varfixed = ",varfixed write(*,*)"What is the saturation % of the variable species?" satval=0.8 call getin_p("satval",satval) write(*,*)" satval = ",satval ! Test of incompatibility: ! if varactive, then varfixed should be false if (varactive.and.varfixed) then print*,'if varactive, varfixed must be OFF!' stop endif write(*,*) "Gravitationnal sedimentation ?" sedimentation=.false. ! default value call getin_p("sedimentation",sedimentation) write(*,*) " sedimentation = ",sedimentation write(*,*) "Compute water cycle ?" water=.false. ! default value call getin_p("water",water) write(*,*) " water = ",water ! Test of incompatibility: ! if water is true, there should be at least a tracer if (water.and.(.not.tracer)) then print*,'if water is ON, tracer must be ON too!' stop endif write(*,*) "Include water condensation ?" watercond=.false. ! default value call getin_p("watercond",watercond) write(*,*) " watercond = ",watercond ! Test of incompatibility: ! if watercond is used, then water should be used too if (watercond.and.(.not.water)) then print*,'if watercond is used, water should be used too' stop endif write(*,*) "Include water precipitation ?" waterrain=.false. ! default value call getin_p("waterrain",waterrain) write(*,*) " waterrain = ",waterrain write(*,*) "Include surface hydrology ?" hydrology=.false. ! default value call getin_p("hydrology",hydrology) write(*,*) " hydrology = ",hydrology write(*,*) "Evolve surface water sources ?" sourceevol=.false. ! default value call getin_p("sourceevol",sourceevol) write(*,*) " sourceevol = ",sourceevol write(*,*) "Ice evolution timestep ?" icetstep=100.0 ! default value call getin_p("icetstep",icetstep) write(*,*) " icetstep = ",icetstep write(*,*) "Spectral Dependant albedo ?" albedo_spectral_mode=.false. ! default value call getin_p("albedo_spectral_mode",albedo_spectral_mode) write(*,*) " albedo_spectral_mode = ",albedo_spectral_mode write(*,*) "Snow albedo ?" write(*,*) "If albedo_spectral_mode=.true., then this " write(*,*) "corresponds to the 0.5 microns snow albedo." albedosnow=0.5 ! default value call getin_p("albedosnow",albedosnow) write(*,*) " albedosnow = ",albedosnow write(*,*) "CO2 ice albedo ?" albedoco2ice=0.5 ! default value call getin_p("albedoco2ice",albedoco2ice) write(*,*) " albedoco2ice = ",albedoco2ice write(*,*) "Maximum ice thickness ?" maxicethick=2.0 ! default value call getin_p("maxicethick",maxicethick) write(*,*) " maxicethick = ",maxicethick write(*,*) "Freezing point of seawater ?" Tsaldiff=-1.8 ! default value call getin_p("Tsaldiff",Tsaldiff) write(*,*) " Tsaldiff = ",Tsaldiff write(*,*) "Does user want to force cpp and mugaz?" force_cpp=.false. ! default value call getin_p("force_cpp",force_cpp) write(*,*) " force_cpp = ",force_cpp if (force_cpp) then mugaz = -99999. PRINT *,'MEAN MOLECULAR MASS in g mol-1 ?' call getin_p("mugaz",mugaz) IF (mugaz.eq.-99999.) THEN PRINT *, "mugaz must be set if force_cpp = T" STOP ELSE write(*,*) "mugaz=",mugaz ENDIF cpp = -99999. PRINT *,'SPECIFIC HEAT CAPACITY in J K-1 kg-1 ?' call getin_p("cpp",cpp) IF (cpp.eq.-99999.) THEN PRINT *, "cpp must be set if force_cpp = T" STOP ELSE write(*,*) "cpp=",cpp ENDIF endif ! of if (force_cpp) call su_gases call calc_cpp_mugaz PRINT*,'--------------------------------------------' PRINT* PRINT* ELSE write(*,*) write(*,*) 'Cannot read file callphys.def. Is it here ?' stop ENDIF ! of IF(iscallphys) PRINT* PRINT*,'inifis: daysec',daysec PRINT* PRINT*,'inifis: The radiative transfer is computed:' PRINT*,' each ',iradia,' physical time-step' PRINT*,' or each ',iradia*dtphys,' seconds' PRINT* !----------------------------------------------------------------------- ! Some more initialization: ! ------------------------ ! Initializations for comgeomfi_h #ifndef MESOSCALE totarea=SSUM(ngrid,parea,1) call planetwide_sumval(parea,totarea_planet) !! those are defined in comdiurn_h.F90 IF (.not.ALLOCATED(sinlat)) ALLOCATE(sinlat(ngrid)) IF (.not.ALLOCATED(coslat)) ALLOCATE(coslat(ngrid)) IF (.not.ALLOCATED(sinlon)) ALLOCATE(sinlon(ngrid)) IF (.not.ALLOCATED(coslon)) ALLOCATE(coslon(ngrid)) DO ig=1,ngrid sinlat(ig)=sin(plat(ig)) coslat(ig)=cos(plat(ig)) sinlon(ig)=sin(plon(ig)) coslon(ig)=cos(plon(ig)) ENDDO #endif ! initialize variables in radinc_h call ini_radinc_h(nlayer) ! allocate "comsoil_h" arrays call ini_comsoil_h(ngrid) END SUBROUTINE inifis END MODULE inifis_mod